| 2J24 | A:2-250; B:2-250 | THE FUNCTIONAL ROLE OF THE CONSERVED ACTIVE SITE PROLINE OF TRIOSEPHOSPHATE ISOMERASE |
| 2J27 | A:2-250; B:2-250 | THE FUNCTIONAL ROLE OF THE CONSERVED ACTIVE SITE PROLINE OF TRIOSEPHOSPHATE ISOMERASE |
| 2V0T | B:2-250; G:2-250; E:2-250; A:2-250; C:2-250; F:2-250; H:2-250; D:2-250 | THE A178L MUTATION IN THE C-TERMINAL HINGE OF THE FLEXIBLE LOOP-6 OF TRIOSEPHOSPHATE ISOMERASE (TIM) INDUCES A MORE CLOSED CONFORMATION OF THIS HINGE REGION IN DIMERIC AND MONOMERIC TIM |
| 2V2C | A:2-250 | THE A178L MUTATION IN THE C-TERMINAL HINGE OF THE FLEXIBLE LOOP-6 OF TRIOSEPHOSPHATE ISOMERASE (TIM) INDUCES A MORE CLOSED CONFORMATION OF THIS HINGE REGION IN DIMERIC AND MONOMERIC TIM |
| 2V2D | A:2-250 | THE A178L MUTATION IN THE C-TERMINAL HINGE OF THE FLEXIBLE LOOP-6 OF TRIOSEPHOSPHATE ISOMERASE (TIM) INDUCES A MORE CLOSED CONFORMATION OF THIS HINGE REGION IN DIMERIC AND MONOMERIC TIM |
| 2V2H | A:2-250; B:2-250; C:2-250 | THE A178L MUTATION IN THE C-TERMINAL HINGE OF THE FLEXIBLE LOOP-6 OF TRIOSEPHOSPHATE ISOMERASE (TIM) INDUCES A MORE CLOSED CONFORMATION OF THIS HINGE REGION IN DIMERIC AND MONOMERIC TIM |
| 2V5L | A:2-250; B:302-550 | STRUCTURES OF THE OPEN AND CLOSED STATE OF TRYPANOSOMAL TRIOSEPHOSPHATE ISOMERASE: AS OBSERVED IN A NEW CRYSTAL FORM: IMPLICATIONS FOR THE REACTION MECHANISM |
| 2VEI | A:2-250; B:2-250; C:2-250 | STRUCTURE-BASED ENZYME ENGINEERING EFFORTS WITH AN INACTIVE MONOMERIC TIM VARIANT: THE IMPORTANCE OF A SINGLE POINT MUTATION FOR GENERATING AN ACTIVE SITE WITH SUITABLE BINDING PROPERTIES |
| 2VEK | B:2-250; A:2-250 | STRUCTURE-BASED ENZYME ENGINEERING EFFORTS WITH AN INACTIVE MONOMERIC TIM VARIANT: THE IMPORTANCE OF A SINGLE POINT MUTATION FOR GENERATING AN ACTIVE SITE WITH SUITABLE BINDING PROPERTIES |
| 2VEL | A:2-250; B:2-250 | STRUCTURE-BASED ENZYME ENGINEERING EFFORTS WITH AN INACTIVE MONOMERIC TIM VARIANT: THE IMPORTANCE OF A SINGLE POINT MUTATION FOR GENERATING AN ACTIVE SITE WITH SUITABLE BINDING PROPERTIES |
| 2VEM | B:2-250; A:2-250 | STRUCTURE-BASED ENZYME ENGINEERING EFFORTS WITH AN INACTIVE MONOMERIC TIM VARIANT: THE IMPORTANCE OF A SINGLE POINT MUTATION FOR GENERATING AN ACTIVE SITE WITH SUITABLE BINDING PROPERTIES |
| 2VEN | B:2-250; A:2-250 | STRUCTURE-BASED ENZYME ENGINEERING EFFORTS WITH AN INACTIVE MONOMERIC TIM VARIANT: THE IMPORTANCE OF A SINGLE POINT MUTATION FOR GENERATING AN ACTIVE SITE WITH SUITABLE BINDING PROPERTIES |
| 2WSQ | A:2-250; B:2-250; C:2-250; D:2-250 | MONOTIM MUTANT RMM0-1, DIMERIC FORM. |
| 2WSR | A:2-250 | MONOTIM MUTANT RMM0-1, MONOMERIC FORM. |
| 2X16 | B:2-250; A:2-250 | CRYSTALLOGRAPHIC BINDING STUDIES WITH AN ENGINEERED MONOMERIC VARIANT OF TRIOSEPHOSPHATE ISOMERASE |
| 2X1R | B:2-250; A:2-250 | CRYSTALLOGRAPHIC BINDING STUDIES WITH AN ENGINEERED MONOMERIC VARIANT OF TRIOSEPHOSPHATE ISOMERASE |
| 2X1S | B:2-250; A:2-250 | CRYSTALLOGRAPHIC BINDING STUDIES WITH AN ENGINEERED MONOMERIC VARIANT OF TRIOSEPHOSPHATE ISOMERASE |
| 2X1T | B:2-250; A:2-250 | CRYSTALLOGRAPHIC BINDING STUDIES WITH AN ENGINEERED MONOMERIC VARIANT OF TRIOSEPHOSPHATE ISOMERASE |
| 2X1U | B:2-250; A:2-250 | CRYSTALLOGRAPHIC BINDING STUDIES WITH AN ENGINEERED MONOMERIC VARIANT OF TRIOSEPHOSPHATE ISOMERASE |
| 2X2G | B:2-250; A:2-250 | CRYSTALLOGRAPHIC BINDING STUDIES WITH AN ENGINEERED MONOMERIC VARIANT OF TRIOSEPHOSPHATE ISOMERASE |
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